/*****************************************************************************/ // Copyright 2006-2007 Adobe Systems Incorporated // All Rights Reserved. // // NOTICE: Adobe permits you to use, modify, and distribute this file in // accordance with the terms of the Adobe license agreement accompanying it. /*****************************************************************************/ /* $Id: //mondo/dng_sdk_1_4/dng_sdk/source/dng_mosaic_info.h#1 $ */ /* $DateTime: 2012/05/30 13:28:51 $ */ /* $Change: 832332 $ */ /* $Author: tknoll $ */ /** \file * Support for descriptive information about color filter array patterns. */ /*****************************************************************************/ #ifndef __dng_mosaic_info__ #define __dng_mosaic_info__ /*****************************************************************************/ #include "dng_classes.h" #include "dng_rect.h" #include "dng_sdk_limits.h" #include "dng_types.h" /*****************************************************************************/ /// \brief Support for describing color filter array patterns and manipulating mosaic sample data. /// /// See CFAPattern tag in \ref spec_tiff_ep "TIFF/EP specification" and CFAPlaneColor, CFALayout, and BayerGreenSplit /// tags in the \ref spec_dng "DNG 1.1.0 specification". class dng_mosaic_info { public: /// Size of fCFAPattern. dng_point fCFAPatternSize; /// CFA pattern from CFAPattern tag in the \ref spec_tiff_ep "TIFF/EP specification." uint8 fCFAPattern [kMaxCFAPattern] [kMaxCFAPattern]; /// Number of color planes in DNG input. uint32 fColorPlanes; uint8 fCFAPlaneColor [kMaxColorPlanes]; /// Value of CFALayout tag in the \ref spec_dng "DNG 1.3 specification." /// CFALayout describes the spatial layout of the CFA. The currently defined values are: /// - 1 = Rectangular (or square) layout. /// - 2 = Staggered layout A: even columns are offset down by 1/2 row. /// - 3 = Staggered layout B: even columns are offset up by 1/2 row. /// - 4 = Staggered layout C: even rows are offset right by 1/2 column. /// - 5 = Staggered layout D: even rows are offset left by 1/2 column. /// - 6 = Staggered layout E: even rows are offset up by 1/2 row, even columns are offset left by 1/2 column. /// - 7 = Staggered layout F: even rows are offset up by 1/2 row, even columns are offset right by 1/2 column. /// - 8 = Staggered layout G: even rows are offset down by 1/2 row, even columns are offset left by 1/2 column. /// - 9 = Staggered layout H: even rows are offset down by 1/2 row, even columns are offset right by 1/2 column. uint32 fCFALayout; /// Value of BayerGreeSplit tag in DNG file. /// BayerGreenSplit only applies to CFA images using a Bayer pattern filter array. This tag /// specifies, in arbitrary units, how closely the values of the green pixels in the blue/green rows /// track the values of the green pixels in the red/green rows. /// /// A value of zero means the two kinds of green pixels track closely, while a non-zero value /// means they sometimes diverge. The useful range for this tag is from 0 (no divergence) to about /// 5000 (large divergence). uint32 fBayerGreenSplit; protected: dng_point fSrcSize; dng_point fCroppedSize; real64 fAspectRatio; public: dng_mosaic_info (); virtual ~dng_mosaic_info (); virtual void Parse (dng_host &host, dng_stream &stream, dng_info &info); virtual void PostParse (dng_host &host, dng_negative &negative); /// Returns whether the RAW data in this DNG file from a color filter array (mosaiced) source. /// \retval true if this DNG file is from a color filter array (mosiaced) source. bool IsColorFilterArray () const { return fCFAPatternSize != dng_point (0, 0); } /// Enable generating four-plane output from three-plane Bayer input. /// Extra plane is a second version of the green channel. First green is produced /// using green mosaic samples from one set of rows/columns (even/odd) and the second /// green channel is produced using the other set of rows/columns. One can compare the /// two versions to judge whether BayerGreenSplit needs to be set for a given input source. virtual bool SetFourColorBayer (); /// Returns scaling factor relative to input size needed to capture output data. /// Staggered (or rotated) sensing arrays are produced to a larger output than the number of input samples. /// This method indicates how much larger. /// \retval a point with integer scaling factors for the horizotal and vertical dimensions. virtual dng_point FullScale () const; /// Returns integer factors by which mosaic data must be downsampled to produce an image which is as close /// to prefSize as possible in longer dimension, but no smaller than minSize. /// \param minSize Number of pixels as minium for longer dimension of downsampled image. /// \param prefSize Number of pixels as target for longer dimension of downsampled image. /// \param cropFactor Faction of the image to be used after cropping. /// \retval Point containing integer factors by which image must be downsampled. virtual dng_point DownScale (uint32 minSize, uint32 prefSize, real64 cropFactor) const; /// Return size of demosaiced image for passed in downscaling factor. /// \param downScale Integer downsampling factor obtained from DownScale method. /// \retval Size of resulting demosaiced image. virtual dng_point DstSize (const dng_point &downScale) const; /// Demosaic interpolation of a single plane for non-downsampled case. /// \param host dng_host to use for buffer allocation requests, user cancellation testing, and progress updates. /// \param negative DNG negative of mosaiced data. /// \param srcImage Source image for mosaiced data. /// \param dstImage Destination image for resulting interpolated data. /// \param srcPlane Which plane to interpolate. virtual void InterpolateGeneric (dng_host &host, dng_negative &negative, const dng_image &srcImage, dng_image &dstImage, uint32 srcPlane = 0) const; /// Demosaic interpolation of a single plane for downsampled case. /// \param host dng_host to use for buffer allocation requests, user cancellation testing, and progress updates. /// \param negative DNG negative of mosaiced data. /// \param srcImage Source image for mosaiced data. /// \param dstImage Destination image for resulting interpolated data. /// \param downScale Amount (in horizontal and vertical) by which to subsample image. /// \param srcPlane Which plane to interpolate. virtual void InterpolateFast (dng_host &host, dng_negative &negative, const dng_image &srcImage, dng_image &dstImage, const dng_point &downScale, uint32 srcPlane = 0) const; /// Demosaic interpolation of a single plane. Chooses between generic and fast interpolators based on parameters. /// \param host dng_host to use for buffer allocation requests, user cancellation testing, and progress updates. /// \param negative DNG negative of mosaiced data. /// \param srcImage Source image for mosaiced data. /// \param dstImage Destination image for resulting interpolated data. /// \param downScale Amount (in horizontal and vertical) by which to subsample image. /// \param srcPlane Which plane to interpolate. virtual void Interpolate (dng_host &host, dng_negative &negative, const dng_image &srcImage, dng_image &dstImage, const dng_point &downScale, uint32 srcPlane = 0) const; protected: virtual bool IsSafeDownScale (const dng_point &downScale) const; uint32 SizeForDownScale (const dng_point &downScale) const; virtual bool ValidSizeDownScale (const dng_point &downScale, uint32 minSize) const; }; /*****************************************************************************/ #endif /*****************************************************************************/